Power efficient integrated charge pump using clock gating

1. A voltage multiplier circuit, in particular for programmable memories, said multiplier circuit being supplied by a low voltage and including: an oscillator for generating a clock signal; a charge pump circuit controlled on the basis of said clock signal in order to generate a high output voltage; a regulation feedback loop including a feedback circuit connected to the output of said charge pump circuit; and means for gating said clock signal, which is disposed in said feedback loop between said oscillator and said charge pump circuit, said means being controlled by a gating signal supplied by said feedback circuit, said feedback circuit comprising means for generating, on the basis of said high output voltage, an intermediate control voltage which varies within a determined voltage range defined by minimum and maximum voltage levels, wherein said minimum and maximum voltage levels are independent of said high output voltage and wherein said means for generating the intermediate control voltage include control means, for gradually increasing or respectively decreasing said intermediate control voltage within said voltage range in response to said high output voltage being above or respectively under a determined voltage level.

2. The voltage multiplier circuit according to claim 1 , wherein said minimum and maximum voltage levels are first and second reference potentials of said voltage multiplier circuit.

3. The voltage multiplier circuit according to claim 1 , wherein said control means include a switching means controlled on the basis of said high voltage output and having a first terminal connected to a current source delivering a first current and a second terminal connected to a current sink consuming a second current greater than said first current, said intermediate control voltage being supplied at said first terminal.

4. The voltage multiplier circuit according to claim 3 , wherein said first and second currents have a determined ratio equal to two.

5. The voltage multiplier circuit according to claim 3 , wherein said feedback circuit further includes voltage dropping means for supplying a dropped voltage for controlling said switching means.

6. The voltage multiplier circuit according to claim 5 , wherein said feedback circuit further includes a stabilization capacitor at the output of said dropping means.

7. The voltage multiplier circuit according to claim 1 , wherein said feedback circuit further includes digitising means which is an hysteresis trigger having first and second threshold voltages within said voltage range.

8. The voltage multiplier circuit according to claim 1 , wherein said high output voltage is filtered using a transistor with a low threshold voltage.

9. The voltage multiplier circuit according to claim 1 , wherein said clock signal gating means comprise a multiplexer receiving said clock signal from said oscillator and a DC supply voltage, both received signals being controlled by said gating signal in order to let one pass, the output of the multiplexer being connected to said charge pump circuit.

10. The voltage multiplier circuit according to claim 1 , wherein said feedback circuit further includes ramp rate control means.

11. The voltage multiplier circuit according to claim 10 , wherein said ramp rate control means includes a capacitor connected to the high output voltage and a controlled current supply disposed between said capacitor and an output of said control means.

12. The voltage multiplier circuit according to claim 11 , wherein said ramp rate control means further includes switching means in series with said capacitor.